An instant wireless detecting apparatus installed in a trailer which includes a detecting mechanism and a monitor. The detecting mechanism is provided for detecting a tire condition of each the plurality of tires on a bottom of a loading board. The detecting mechanism will generate an identification code corresponds to an identification code respectively and output a wireless signal to the monitor. The monitor is automatically matched with the detecting mechanism according to the identification code and the tire condition is to be determined according to the detecting signal of the detecting mechanism corresponding to the identification code. A prompted message is sent by the prompt component, such that the installation of tire pressure detecting component can be simplified and the time for the installation of the tire pressure detecting component cal also be reduced.

A tire pressure monitoring system including a monitoring unit positioned in a tractor, a first repeater positioned in the tractor, a plurality of second repeaters positioned in a plurality of trailers connected to the tractor, and a plurality of sensors positioned at tires of the tractor or the trailers. A first RF transceiving unit transceives data with the first repeater by a low power RF transmitting unit to the plurality of second repeaters.

Methods and apparatus for determining whether a vehicle tyre pressure check has been carried out, comprising: receiving from a pressure reader module a request for tyre pressure data indicative of a the pressure of a gas retained within a pneumatic tyre; storing, by a pressure check register, data indicating that the request for tyre pressure data was received; transmitting, by a transmitter to an apparatus, an indication confirming whether a tyre pressure check has been carried out based on whether the request for tyre pressure data was received; receiving, at the apparatus from a plurality of tyre pressure sensing modules, a plurality of indications of whether a tyre pressure reader has been used on each of the plurality of tyre pressure sensing modules to check a corresponding tyre pressure; and determining, by a pressure check confirmer, whether a vehicle tyre pressure check has been carried out based on the received plurality of indications.

A wheel end assembly for a tire pressure management system including an axle having an axle end portion and a rotary joint assembly disposed outboard of the axle end portion. The rotary joint has a rotary hub, a non-rotating tube spindle at least partially disposed within the rotary hub, the tube spindle having a tube spindle hollow central chamber, an air seal provided between the rotary hub and the tube spindle, and a bearing assembly provided between the rotary hub and the tube spindle. The bearing assembly is positioned outboard of the air seal.

An inflation manifold connected to dual pneumatic tires by air hoses provides a central location for tire inflation and location of pressure sensors. A hose block connected to dual pneumatic tires by air hoses provides a central location for location of pressure sensors. The pressure sensors may be TPMS sensors or a combination of TPMS sensor and pressure gauge.

An inflation manifold connected to dual pneumatic tires by air hoses provides a central location for tire inflation and location of pressure sensors. A hose block connected to dual pneumatic tires by air hoses provides a central location for location of pressure sensors. The pressure sensors may be TPMS sensors or a combination of TPMS sensor and pressure gauge.

The invention relates to a method for associating tire sensor modules (6.i) with a trailer vehicle (3), having at least the following steps: capturing data messages (S1) from tire sensor modules (6.i, 106.i, 206.i) in a monitoring region (8); associating the captured data messages (S1) with a tire sensor module (6.i, 106.i, 206.i); ascertaining a number of captured data messages (S1) for each detected tire sensor module; rating the captured data messages (S1) to establish whether the tire sensor modules (6.i, 106.i, 206.i) received in total up to then belong to the driver's own trailer vehicle (3) or to the adjacent trailer vehicle (103, 203); accepting the tire sensor modules (6.i) detected in the rating as affiliated to the driver's own trailer vehicle (3). According to the invention, each tire sensor module (6.i, 106.i, 206.i) detects a wheel position associated with the respective tire sensor module (6.i, 106.i, 206.i) and a trailer axle configuration, so that for an accepted tire sensor module (6.i) the wheel position and the trailer axle configuration can be taken as a basis for making a positional association on the driver's own trailer vehicle (3).

A trailer diagnostic and monitoring system includes a system controller having a controller body, and a power unit for engage a wiring harness of the trailer. A location identification unit and wireless communication device are positioned within the controller body, and a plurality of hub sensor assemblies are positioned along the axle hubs of the trailer. Each of the assemblies including functionality for monitoring and reporting the temperature of a respective axle hub, and the pressure of the trailer tire secured to the respective axle hub. A process specific serial forwarder device communicatively links each of the hub sensor assemblies to the system controller. A trailer diagnostic and monitoring application for execution on a remote computing device includes functionality for communicating with the wireless communication device to receive trailer location information, tire pressure readings and axle hub temperatures.

A vehicle operational diagnostics and condition response system includes at least an axle supporting a vehicle frame, a suspension disposed between and secured to each the vehicle frame and the axle, a load detection device interacting with the suspension and communicating with a system controller, wherein the system controller is supported by the vehicle frame, and a vehicle pairing circuit, the vehicle pairing circuit interacting with the system controller. The vehicle pairing circuit activated by the system controller in response to load detection data received by the system controller from the load detection device.

A rotary union having a housing, a shaft rotatably disposed within the housing, and a tube having a first end sealingly disposed within the shaft and a second end sealingly coupled to the housing. A tire inflation system may comprise a rotary union externally mounted to a vehicle wheel end or mounted to a vehicle fairing.